From: Uwe Hermann Date: Wed, 7 Dec 2011 18:43:24 +0000 (+0100) Subject: srd: UART: Add some protocol documentation. X-Git-Tag: libsigrokdecode-0.1.0~243 X-Git-Url: https://sigrok.org/gitaction?a=commitdiff_plain;h=6efe1e1106bd648705f6f704ed2f267c86035dac;p=libsigrokdecode.git srd: UART: Add some protocol documentation. --- diff --git a/decoders/uart.py b/decoders/uart.py index ee39697..efc1756 100644 --- a/decoders/uart.py +++ b/decoders/uart.py @@ -22,6 +22,78 @@ # UART protocol decoder # +# +# Universal Asynchronous Receiver Transmitter (UART) is a simple serial +# communication protocol which allows two devices to talk to each other. +# +# It uses just two data signals and a ground (GND) signal: +# - RX/RXD: Receive signal +# - TX/TXD: Transmit signal +# +# The protocol is asynchronous, i.e., there is no dedicated clock signal. +# Rather, both devices have to agree on a baudrate (number of bits to be +# transmitted per second) beforehand. Baudrates can be arbitrary in theory, +# but usually the choice is limited by the hardware UARTs that are used. +# Common values are 9600 or 115200. +# +# The protocol allows full-duplex transmission, i.e. both devices can send +# data at the same time. However, unlike SPI (which is always full-duplex, +# i.e., each send operation is automatically also a receive operation), UART +# allows one-way communication, too. In such a case only one signal (and GND) +# is required. +# +# The data is sent over the TX line in so-called 'frames', which consist of: +# - Exactly one start bit (always 0/low). +# - Between 5 and 9 data bits. +# - An (optional) parity bit. +# - One or more stop bit(s). +# +# The idle state of the RX/TX line is 1/high. As the start bit is 0/low, the +# receiver can continually monitor its RX line for a falling edge, in order +# to detect the start bit. +# +# Once detected, it can (due to the agreed-upon baudrate and thus the known +# width/duration of one UART bit) sample the state of the RX line "in the +# middle" of each (start/data/parity/stop) bit it wants to analyze. +# +# It is configurable whether there is a parity bit in a frame, and if yes, +# which type of parity is used: +# - None: No parity bit is included. +# - Odd: The number of 1 bits in the data (and parity bit itself) is odd. +# - Even: The number of 1 bits in the data (and parity bit itself) is even. +# - Mark/one: The parity bit is always 1/high (also called 'mark state'). +# - Space/zero: The parity bit is always 0/low (also called 'space state'). +# +# It is also configurable how many stop bits are to be used: +# - 1 stop bit (most common case) +# - 2 stop bits +# - 1.5 stop bits (i.e., one stop bit, but 1.5 times the UART bit width) +# - 0.5 stop bits (i.e., one stop bit, but 0.5 times the UART bit width) +# +# The bit order of the 5-9 data bits is LSB-first. +# +# Possible special cases: +# - One or both data lines could be inverted, which also means that the idle +# state of the signal line(s) is low instead of high. +# - Only the data bits on one or both data lines (and the parity bit) could +# be inverted (but the start/stop bits remain non-inverted). +# - The bit order could be MSB-first instead of LSB-first. +# - The baudrate could change in the middle of the communication. This only +# happens in very special cases, and can only work if both devices know +# to which baudrate they are to switch, and when. +# - Theoretically, the baudrate on RX and the one on TX could also be +# different, but that's a very obscure case and probably doesn't happen +# very often in practice. +# +# Error conditions: +# - If there is a parity bit, but it doesn't match the expected parity, +# this is called a 'parity error'. +# - If there are no stop bit(s), that's called a 'frame error'. +# +# More information: +# TODO: URLs +# + import sigrok # States